The invention relates to solidification of liquid anionic surfactants with a binder, carrier, or both binder and carrier to form a solidified surfactant composition. In particular, the invention relates to solidification of liquid surfactants utilizing drying device(s), wherein the feed composition contains at least one liquid surfactant and the binder, carrier, or binder and carrier to form a solidified surfactant composition. The solidified surfactant compositions can be useful in various cleaning compositions.

Microbiological cleaning formulations may include an aqueous solution of a microbial component comprising at least one sporogenous microbial species. The microbiological cleaning formulation may also include a nonionic surfactant. The microbiological cleaning formulations may further include additives, solvents, preservatives, stabilizers, and fragrance agents. The microbiological formulations are such that they may removes organic carcinogens from a surface of a material contaminated during firefighting-related activities or from exposure to organic carcinogens. Corresponding methods for removing organic carcinogens from a surface of a firefighting material may include applying the microbiological cleaning formulation on the surface of the firefighting material. Corresponding cleaning kits may include the microbiological cleaning formulation and an optional scrubbing element.

An in-vitro opacified and structured detergent composition includes a surfactant component present in an amount of about 7 to about 50 weight percent actives and including (1) an alcohol ethoxy sulfate having a C.sub.8-C.sub.20 backbone that is ethoxylated with from about 1 to about 10 moles of ethylene oxide, (2) at least one non-ionic surfactant comprising an alkoxylated alcohol, and (3) at least one anionic surfactant comprising a linear alkylbenzene sulfonate. The detergent composition also includes water present in a total amount of from about 30 to about 90 weight percent, free fatty acids in a total amount from about 1 to 15 weight percent, a magnesium cation in a total amount of from 0.05 to 1 weight percent, and colloidal particles such as encapsulated fragrances. The composition has a yield point value of at least 0.075 Pa at 20° C.

Surfactant-containing compositions are described which include a protein component that has the effect of improving the surface-active properties of the surfactants contained in the compositions. The surfactant-containing compositions having the protein component demonstrate significantly lower critical micelle concentrations (CMC), reduced surface tensions, and reduced interfacial tensions than do comparable compositions having no protein component. In addition, the surfactant-containing compositions having the protein component has the effect of converting greasy waste contaminants to surface active materials.

Surfactant-containing compositions are described which include a protein component that has the effect of improving the surface-active properties of the surfactants contained in the compositions. The surfactant-containing compositions having the protein component demonstrate significantly lower critical micelle concentrations (CMC), reduced surface tensions, and reduced interfacial tensions than do comparable compositions having no protein component. In addition, the surfactant-containing compositions having the protein component has the effect of converting greasy waste contaminants to surface active materials.

The present disclosure is directed to a composition and method for treating stains and odors using an oxidizing agent and Bacillus spores. The composition preferably comprises a two part formula, a first part comprising the oxidizing agent and water and optionally an ionic surfactant and fragrance, and a second part comprising a liquid Bacillus spores composition or a dry Bacillus spores powder composition. The preferred Bacillus can include B. licheniformis, B. subtilis, B. pumilus, and B. megaterium spores. The preferred oxidizer is hydrogen peroxide. The parts of the treatment composition are mixed together in-situ at the site of treatment to maintain the viability of the Bacillus spores. The preferred composition and method allow for the combined treatment of stains and odors with an oxidizer and Bacillus spores.

The present disclosure is directed to a composition and method for treating stains and odors using an oxidizing agent and Bacillus spores. The composition preferably comprises a two part formula, a first part comprising the oxidizing agent and water and optionally an ionic surfactant and fragrance, and a second part comprising a liquid Bacillus spores composition or a dry Bacillus spores powder composition. The preferred Bacillus can include B. licheniformis, B. subtilis, B. pumilus, and B. megaterium spores. The preferred oxidizer is hydrogen peroxide. The parts of the treatment composition are mixed together in-situ at the site of treatment to maintain the viability of the Bacillus spores. The preferred composition and method allow for the combined treatment of stains and odors with an oxidizer and Bacillus spores.

The present application relates to a Lactobacillus paracasei ET-22 strain and use thereof. The present application provides a Lactobacillus paracasei ET-22 strain with a deposit number of CGMCC No. 15077, a composition containing the strain and a method of treating a subject using the strain. The present application also relates to a method for treating a subject, including administering an effective amount of the Lactobacillus paracasei ET-22 strain to a subject in need thereof for 1) whitening teeth and/or inhibiting oral pathogens; 2) adjusting balance of flora in the subject; 3) promoting growth of bifidobacteria and/or lactic acid bacteria; and/or 4) enhancing immunity of the subject.

The invention relates to solidification of liquid anionic surfactants with a binder, carrier, or both binder and carrier to form a solidified surfactant composition. In particular, the invention relates to solidification of liquid surfactants utilizing drying device(s), wherein the feed composition contains at least one liquid surfactant and the binder, carrier, or binder and carrier to form a solidified surfactant composition. The solidified surfactant compositions can be useful in various cleaning compositions.

The invention relates to solidification of liquid anionic surfactants with a binder, carrier, or both binder and carrier to form a solidified surfactant composition. In particular, the invention relates to solidification of liquid surfactants utilizing drying device(s), wherein the feed composition contains at least one liquid surfactant and the binder, carrier, or binder and carrier to form a solidified surfactant composition. The solidified surfactant compositions can be useful in various cleaning compositions.